Virus Research (Jul 2024)

Exploration of influenza A virus PA protein-associated cellular proteins discloses its impact on mitochondrial function

  • Chih-Ching Wu,
  • Ee-Hong Tam,
  • Yu-Yin Shih,
  • Yi-Ru Lin,
  • Pei-Chun Hsueh,
  • Hsiang-Yi Shen,
  • Chian-Huey Woung,
  • Li-Ting Wang,
  • Jia-Chen Tsai,
  • Syh-Jae Lin,
  • Chuang-Rung Chang,
  • Po-Yuan Ke,
  • Rei-Lin Kuo

Journal volume & issue
Vol. 345
p. 199387

Abstract

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Influenza A virus can infect respiratory tracts and may cause severe illness in humans. Proteins encoded by influenza A virus can interact with cellular factors and dysregulate host biological processes to support viral replication and cause pathogenicity. The influenza viral PA protein is not only a subunit of influenza viral polymerase but also a virulence factor involved in pathogenicity during infection. To explore the role of the influenza virus PA protein in regulating host biological processes, we performed immunoprecipitation and LC‒MS/MS to globally identify cellular factors that interact with the PA proteins of the influenza A H1N1, 2009 pandemic H1N1, and H3N2 viruses. The results demonstrated that proteins located in the mitochondrion, proteasome, and nucleus are associated with the PA protein. We further discovered that the PA protein is partly located in mitochondria by immunofluorescence and mitochondrial fractionation and that overexpression of the PA protein reduces mitochondrial respiration. In addition, our results revealed the interaction between PA and the mitochondrial matrix protein PYCR2 and the antiviral role of PYCR2 during influenza A virus replication. Moreover, we found that the PA protein could also trigger autophagy and disrupt mitochondrial homeostasis. Overall, our research revealed the impacts of the influenza A virus PA protein on mitochondrial function and autophagy.

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